Tetramethylthiruram disulfide (C6H12N2S4) is also referred to as thiram. Thiram is used in many applications. It is used as a fungicide in agriculture, in the treatment of human scabies, as a sun screen, as a bactericide applied directly to the skin or incorporated into soaps, in the pharmaceutical Antabuse for the treatment of alcoholics, and as an accelerator in the manufacture of rubber products.
Tetramethylthiuram disulfide is an accelerator involved with cross-linking reactions.
(By example: in vulcanisatios of latex rubber)
Carbon disulfide is the chemical compound made up of linear S=C=S molecules
Carbon disulfide has many industrial applications. Frequently used in fumigation and also as an insecticide, carbon disulfide is not used in the dry cleaning industry.
This yield is very low - 13 %.
Yes, under standard conditions, carbon disulfide (CS2) is a liquid.
At room temperature, carbon disulfide is a liquid and therefore quite a bit more dense ('heavier') than air. Even at temperatures where carbon disulfide is a gas, it's considerably more dense than air at the same temperature and pressure. The density of a gas is more or less proportional to its molar mass; for carbon disulfide this is 76 while air is mostly nitrogen (28) and oxygen (32).
No
Carbon disulfide is CS2
carbon disulfide
A disulfide bridge involves covalent bonds
CS2 stands for carbon disulfide; the 2 is written as a subscript and stands for a chemical compound which contains a carbon atom and two sulfur atoms.
It is a disulfide bond.
Carbon disulfide does not contain hydrogen (dissociable or otherwise), and therefore does not have a pH.
Dioxide
Carbon disulfide is the chemical compound made up of linear S=C=S molecules
Carbon disulfide is linear. S=C=S where '=' stands for a double bond.
Carbon disulfide and water are not miscible; a sep funnel should do the trick.
The functional groups involved in forming disulfide bonds are sulfhydral (-SH) groups.